By Author
  By Title
  By Keywords

August 2022, Volume 72, Issue 8

Meta-Analysis

Long-term prognosis of culotte versus different crush strategies in management of unprotected left main bifurcation coronary lesions: A meta-analysis

Huaming Mou  ( Department of Cardiology, Heart center, Three Gorges Central Hospital )
Li Yin  ( Department of Cardiology, Heart Center, Chongqing University Three Gorges Hospital, China. )
Feng Zhu  ( Department of Cardiology, Heart Center, Chongqing University Three Gorges Hospital, China. )
Shasha Li  ( Department of Cardiology, Heart Center, Chongqing University Three Gorges Hospital, China. )
Jianming Zhang  ( Department of Cardiology, Heart center, Three Gorges Central Hospital )
Xiaohua Pang  ( Department of Cardiology, Heart center, Three Gorges Central Hospital )
Jianjun Yang  ( Department of Cardiology, Heart center, Three Gorges Central Hospital )
Shimei Yu  ( Department of Cardiology, Heart Center, Chongqing University Three Gorges Hospital, China. )
Yangjun Mou  ( Department of Cardiology, Heart Center, Chongqing University Three Gorges Hospital, China. )
Doudou Wang  ( Department of Cardiology, Heart Center, Chongqing University Three Gorges Hospital, China. )
Hailong Wang  ( Department of Cardiology, Heart center, Three Gorges Central Hospital )

Abstract

Objective: To assess the long-term clinical effects of Culotte and different Crush techniques in the treatment of unprotected left main bifurcation coronary lesions to determine the best percutaneous coronary intervention strategy.

 

Method: The systematic review and meta-analysis comprised search on PubMed, Embase, Cochrane Library, WanFang Data and the China National Knowledge Infrastructure literature databases to locate randomised controlled trials and cohort studies published in Chinese and/or English language till June 2021 and comprised application of Culotte and Crush stenting techniques for percutaneous coronary intervention in patients with unprotected left main bifurcation coronary lesions. The selected studies were analysed for quality, publication bias and heterogeneity.

 

Results: Of the 197 studies located, 8(4.06%) were subjected to meta-analysis. The incidence of major adverse cardiac events in the Mixed-Crush group was higher than the Culotte group (p=0.02), which, in turn, was higher than the Double Kiss Crush group (p<0.0001), The incidence of target lesion revascularisation in the Culotte group was significantly higher than Double Kiss Crush group (p<0.001). The incidence of myocardial infarction in the Culotte group was higher than the Double Kiss Crush group (p=0.04). The incidence of cardiogenic death in the Double Kiss Crush group was similar to that in the Culotte group (p=0.32).

 

Conclusion: Patients in the Double Kiss Crush group had the most long-term benefits, while those receivingg Mixed Crush had the least long-term benefits.

 

Keywords: Culotte, Crush, Unprotected left main bifurcation coronary lesion, Meta-analysis, Systemic review. (JPMA 72: 1608; 2022)

 

DOI: https://doi.org/10.47391/JPMA.5220

 

Introduction

 

The most serious coronary artery disease is the stenosis or occlusion of the left main coronary artery.1 At present, a large number of studies support coronary artery bypass graft (CABG) as the main treatment method for unprotected left main bifurcation coronary lesions (UPLMBCLs), but this treatment plan can increase the incidence of target lesion revascularisation (TLR), raising the mortality rate.2 With the development of percutaneous coronary intervention (PCI), especially the widespread application of drug-eluting stents, the left main coronary artery disease is no longer in an area unmanageable by PCI.3-5However, controversy remains about single stenting or provisional stenting for left main bifurcation lesions because the incidence of cardiogenic death (CD) with single or provisional stenting is higher. Therefore, a double-stent technique has emerged for UPLMBCLs.6,7

Double-stent technology has many options, including T-stents, Y-stents, Crush stents, and Culotte stents.7,8 Among these, the Crush and Culotte stents are the most common methods for managing UPLMBCLs, and many studies have confirmed that their use is safe and effective.9 Current Crush stents include the step-Crush, mini-Crush, nano-Crush and the Double Kiss Crush (DK-Crush) options.10,11 At present, the effect of PCI is influenced by a variety of factors, such as plaque load, arterial anatomical structure, branching artery, and the surgeon's level of experience. It is still unclear which existing technology is suitable for the treatment of UPLMBCLs.12,13 Thus, the current systematic review and meta-analysis was planned to study the long-term clinical effects of Culotte and different Crush techniques in the treatment of UPLMBCLs to determine the best PCI strategy.

 

Materials and Methods

 

The systematic review and meta-analysis comprised search on PubMed, Embase, Cochrane Library, WanFang Data and the China National Knowledge Infrastructure literature databases to locate randomised controlled trials (RCTs) and cohort studies published in Chinese and/or English language till June 2021 and comprised application of Culotte and Crush stenting techniques for PCI in patients with UPLMBCLs. The medical subject heading (MeSH) terms and key words included "left main", "LM," "Crush" and "Culotte."

The studies included were prospective or retrospective RCTs using Crush stenting options, such as mixed-Crush, mini-Crush, nano-Crush, and DK-Crush, and/or Culotte stenting, with a follow-up time of >2 years and having specific follow-up results, such as major adverse cardiac events (MACEs), target lesion revascularisation (TLR), CD, myocardial infarction (MI), stent thrombosis (ST), and target vascular revascularisation (TVR). Those excluded were controlled studies without Crush or Culotte stenting, those from which follow-up results could not be extracted, those published in languages other than English or Chinese, and reviews or comments.

Two researchers systematically retrieved studies based on pre-designation strategies; screened and evaluated them in accordance with the inclusion/exclusion criteria; and extracted full-text internal data, including the first author's name, basic study characteristics, study period, PCI strategy, and follow-up period and other data. The endpoints of interest were MACEs, CD, MI, ST, TVR and TLR. In case of a conflict of opinion, the matter was decided by two other reviewers.

The Newcastle-Ottawa scale (NOS) was used to assess the quality of the cohort study,13 the Cochrane bias tool (CBT) was used to assess the bias of RCTs, and the RevMan software (version 5.3; Cochrane, London, England) was used for meta-analysis.14 Values <25% indicated low heterogeneity, and 75% indicated high heterogeneity, while those in the middle indicated medium heterogeneity. The Mantel-Haenszel method was used to calculate the aggregate estimate of odd ratios (ORs) with 95% confidence intervals (CIs). All p-values were two-tailed, and p<0.05 was indicative of a significant statistical difference. The included studies used funnel plotting for bias analyses, including the analysis of publication bias.15

 

Results

 

Of the 197 studies located, 8(4.06%) were subjected to meta-analysis (Figure-1); 5(62.5%) cohort studies and 3(37.5%) RCTs.

 

 

Of the 1,283 patients who underwent PCI, 710(55.3%) were treated using the 4 different Crush stenting strategies, and 573(44.6%) were treated using Culotte. The characteristics of the included studies were compared (Table-1), while the clinical baseline characteristics of the study participants were also compared (Table-2).

 

 

 

The heterogeneity of the included studies was low, and a fixed-effects model was chosen for analysis. The incidence of MACEs in the Mixed-Crush group was higher than the Culotte group (p=0.02), which, in turn, was higher than the DK-Crush group (p<0.0001) (Figure-2).

 

 

The incidence of TLR in the Culotte group was significantly higher than DK-Crush group (p<0.001) (Figure-3).

 

 

The incidence of MI in the Culotte group was higher than the DK-Crush group (p=0.04) (Figure-4).

 

 

The incidence of CD in the DK-Crush group was similar to that in the Culotte group (p=0.32) (Figure-5).

 

 

 

Discussion

 

As also indicated by the studies reviewed,15-20 left main coronary artery bifurcations are no longer a forbidden area for PCI procedures, and available PCI strategies for patients with UPLMBCLs include Culotte, T-stent, and Crush techniques.9The Culotte and Crush techniques are common, with the Culotte operation steps being more complicated than the Crush steps and requiring more operation time, X-ray inspection time, and more contrast agent dosage during the procedure.20,21 Meanwhile, the Crush technique can be stratified into four types: mini-Crush, nano-Crush, DK-Crush and mixed-Crush.10,11 To date, a prior meta-analysis on the selection of Culotte and Crush techniques for PCI in patients with UPLMBCLs has been performed,21 but the analysis method of that previous study was errors because mini-Crush, nano-Crush, DK-Crush and mixed-Crush have very different surgical procedures and effects and cannot be summarised as a single type of Crush procedure. Such an approach is also the reason for the high heterogeneity in the analysis of the study results and the unreliable conclusions. Thus, the current meta-analysis is the first to evaluate the clinical outcomes of the Culotte and different Crush techniques in the treatment of UPLMBCLs in an effort to suggest the optimal PCI strategy for UPLMBCLs.

At present, intracoronary imaging systems, like optical coherence tomography and intravascular ultrasound, are used to evaluate the effects of the dual-stent strategy for the treatment of UPLMBCLs, optimise the PCI strategy, and to obtain better PCI results, thereby reducing short- or long-term incidence rates of cardiovascular events. For the Crush and Culotte technology of PCI strategy, intracoronary imaging systems have also been routinely applied during the dual-stent approach for UPLMBCLs, which reduces the variability of PCI results caused by many factors, including the diameters of the main coronary artery and branch coronary arteries, the angle of the arterial bifurcation, and the experience level of the operator.

The current meta-analysis divided comparative studies of the Culotte and different Crush techniques of PCI into subgroups in detail. Our subgroup analysis showed low heterogeneity, and the included studies were very stable and reliable. In principle, the best solution is to rank PCI strategies through a network meta-analysis. However, all the included studies were RCTs, retrospective studies, or prospective studies, and the primary endpoint events were different, so this meta-analysis could not use the method of network meta-analysis. Instead, a pooled analysis of subgroups of studies was conducted. First, our meta-analysis included controlled studies of mini-Crush and Culotte stenting,15,17 wherein primary endpoint events, including the incidence rates of MACEs, MI, CD and TLR, were compared, and there was no statistical difference found between the two groups. Therefore, the mini-Crush strategy of PCI for UPLMBCLs showed no advantage over the Culotte strategy in the long-term prognosis, and there was no difference in patient benefit. When comparing the nano-Crush group and the Culotte group,19,20 the primary endpoint was the long-term TLR results, and there was no significant difference in the follow-up results. Therefore, the long-term TLR benefit of these two groups of patients was not good. However, in comparing the mixed-Crush and Culotte groups,18 the former group had higher cardiovascular adverse events, and the long-term effect of the Culotte group was better than that of the mixed-Crush group. In the included studies, although there was only one study performed by Chen's team in the DK-Crush and Culotte group comparison, it was an RCT with a large sample size, so the results are considered reliable and stable. However, higher, independent evaluation and analysis should still be conducted. This single study comprehensively analysed the incidence rates of long-term primary endpoint events, including MACEs, MI, CD and TLR, and a significant statistical difference in the incidence of primary endpoint events was determined between the DK-Crush and Culotte groups. Specifically, the DK-Crush group experienced a more significant benefit in reducing the incidence rates of MACEs, MI and TLR than the Culotte group did, but in terms of CD, there was no significant difference between the two groups.6

On the basis of the findings, the PCI strategy that had the greatest benefit was DK-Crush, and the one with least benefit was mixed-Crush. During a long-term follow-up comparison of the Culotte and mini-Crush strategies, there was no difference in the primary endpoint, while in the long-term follow-up analysis of Culotte and nano-Crush results, there was also no statistical difference in the primary endpoint. Therefore, it is recommended that the DK-Crush strategy should be selected when patients with UPLMBCLs are being treated, and the mixed-Crush strategy should be abandoned.

The current meta-analysis had several limitations. First of all, because of the lack of large-scale, multicentre, randomised, double-blind, placebo-controlled trials so far, data was only extracted from small-sample or observational studies, and that can lead to inherent biases, such as selection bias, design bias, treatment bias, and publication bias. Further, it also applied the published summary data analysis of various studies, which increased confounding and selection bias and affected the heterogeneity. Finally, it could not determine all study participants' specific medical treatments. However, despite the limitations, the meta-analysis provided a comprehensive comparison of different PCI strategies, which may help surgeons make informed decisions.

 

Conclusion

 

For the treatment of UPLMBCLs, the DK-Crush PCI strategy offered the greatest long-term benefit, while the mixed-Crush strategy had the least long-term benefit for patients. Among the mini-Crush, nano-Crush, and Culotte technologies, the long-term benefits were similar. As such, patients with UPLMBCLs should be treated with the DK-Crush stenting strategy.

 

Acknowledgements: We acknowledge the role of LetPub (www.letpub.com) regarding linguistic assistance during the preparation of the manuscript.

 

Disclaimer: None.

 

Conflict of Interest: None.

 

Source of Funding: None.

 

References

 

1.      D'Ascenzo F, Chieffo A, Cerrato E, Ugo F, Pavani M, Kawamoto H, et al. Incidence and management of restenosis after treatment of unprotected left main disease with second-generation drug-eluting stents (from failure in left main study with 2nd generation stents-cardiogroup iii study). Am J Cardiol. 2017; 119:978-82.

2.      Glenn N, Eric R, James C, Steven R, John A, Charles E, et al. 2015 ACC/AHA/SCAI Focused Update on Primary Percutaneous Coronary Intervention for Patients With ST-Elevation Myocardial Infarction: An Update of the 2011ACCF/AHA/SCAI Guideline for Percutaneous Coronary Intervention and the 2013 ACCF/AHA Guideline for the. J Am Coll Cardiol. 2016; 67:1235-50.

3.      Yamamoto K, Shiomi H, Morimoto T, Kadota K, Tada T, Takeji Y, et al. Percutaneous Coronary Intervention Versus Coronary Artery Bypass Graftinge Among Patients with Unprotected Left Main Coronary Artery Disease in the New-Generation Drug-Eluting Stents Era (From the CREDO-Kyoto PCI/CABG Registry Cohort-3). Am J Cardiol. 2021; 145: 47-57.

4.      Lee PH, Kwon O, Ahn JM, Lee CH, Kang DY, Lee JB, et al. Safety and Effectiveness of Second-Generation Drug-Eluting Stents in Patients With Left Main Coronary Artery Disease. J Am Coll Cardiol. 2018; 71:832-41.

5.      Elgendy IY, Mahmoud AN, Gad M, Elgendy AY, Bhatt DL. Long-term outcomes with drug-eluting stents or coronary artery bypass surgery for unprotected left main coronary disease: A meta-analysis and trial sequential of randomized trials. Am J Cardiol. 2020; 126:111-2.

6.      Chen SL, Xu B, Han YL, Sheiban I, Zhang JJ,  Fei Ye, et al. Clinical Outcome After DK Crush Versus Culotte Stenting of Distal Left Main Bifurcation Lesions: The 3-Year Follow-Up Results of the DKCRUSH-III Study. JACC Cardiovasc Intervent. 2015; 8:1335-42.

7.      Wassef A, Liu S, Yanagawa B, Verma S, Cheema A. Percutaneous management of coronary bifurcation lesions: current perspective. Curr Opin Cardiol. 2020; 35:574-82.

8.      Gioia G D, Sonck J, Ferenc M, Chen SL, Colaiori I, Gallinoro E, et al. Clinical Outcomes Following Coronary Bifurcation PCI Techniques. JACC Cardiovasc Intervent. 2020; 13:1432-44.

9.      Blachutzik F, Achenbach S, Röther J, Tröbs M, Schneider R, Marwan M, et al. Percutaneous coronary intervention of unprotected left main stenoses - Procedural data and outcome depending on SYNTAX I Score. Cardiovasc Revascular Med. 2018; 19:740-3.

10.    Pdmab C, Goslingc AR, Rothman AA, Iqbal FJ, Chiastra CD, Colombo MD, et al. Double-Kissing Nanocrush for Bifurcation Lesions: Development, Bioengineering, Fluid Dynamics, and Initial Clinical Testing. Can J Cardiol. 2020; 36:852-9.

11.    Kervinen K, Niemela M, Romppanen H, Romppanen H,  Erglis A,  Kumsars I, et al. Clinical Outcome After Crush Versus Culotte Stenting of Coronary Artery Bifurcation Lesions : The Nordic Stent Technique Study 36-Month Follow-Up Results. JACC Cardiovascular Interventions, 2013, 6:1160-1165.

12.    Burzotta F, Lassen JF, Banning AP, Lefèvre T,  Hildick-Smith D, Chieffo A. Percutaneous coronary intervention in left main coronary artery disease: the 13th consensus document from the European Bifurcation Club. EuroIntervention. 2018; 14:112-20.

13.    Wells GA, Shea B, O'Connell D, Robertson J, Peterson J, Welch V, et al. The Newcastle-Ottawa Scale (NOS) for assessing the quality of nonrandomized studies in meta-analyses. [Online] [Cited 2021 September 20]. Available from: URL: http://www.ohri.ca/ programs/clinical_epidemiology/oxford.asp.

14.    Begg CB, Berlin JA. Publication bias and dissemination of clinical research. J Natl Cancer Inst. 1989; 81:107-15.

15.    Kawamoto H, Takagi K, Chieffo A, Ruparelia N, Colombo A. Long-term outcomes following mini-crush versus culotte stenting for the treatment of unprotected left main disease: Insights from the Milan and New Tokyo (MITO) registry. Catheter Cardiovasc Intervent. 2017; 89:13-24.

16.    Takagi K, Chieffo A, Naganuma T, Ielasi A, Fujino Y, Tahara S, et al. The comparison between mini-crush and culotte stenting on mid-term clinical outcome in patients withunprotected left main. Euro Intervent. 2014; 128.

17.    Pavani M, Conrotto F, Cerrato E, D'Ascenzo F, Kawamoto H, Núñez-Gil IJ, et al. Long-Term Outcomes of Different Two-Stent Techniques With Second-Generation Drug-Eluting Stents for Unprotected Left Main Bifurcation Disease: Insights From the FAILS-2 Study. J Invasive Cardiol. 2018; 30:276-81.

18.    Maximkin DA, Shugushev Z, Goloshchapov-Aksenov R, Chepurnoy A, Faibushevich A. Five-year results of endovascular treatment of patients with left main coronary arteries bifurcation lesions. Eur Heart J. 2017; 38:201-10.

19.    Rigatelli G, Zuin M, Vassilev D, Dinh H, Giatti S, Carraro M, et al. Culotte versus the novel nano-crush technique for unprotected complex bifurcation left main stenting: difference in procedural time, contrast volume and X-ray exposure and 3-years outcomes. The Int J Cardiovasc Imaging. 2018; 35:207-14.

20.    Rigatelli G, Zuin M, Dinh H, Giatti S, Nguyen VT, Maddali N, et al. Long-term outcomes of left main bifurcation double stenting in patients with STEMI and cardiogenic shock. Cardiovasc Revasc Med. 2019; 20:663-8.

21.    Chen XR, Cui DY, Chen YQ, Niu TS. Crush is superior to Culotte in two-stent strategy for treatment of left main coronary artery bifurcations: A systematic review and meta-analysis. Clin Invest Med. 2020; 43:35-46.

Journal of the Pakistan Medical Association has agreed to receive and publish manuscripts in accordance with the principles of the following committees: